Experimental analysis of the dependence factor during supercontinuum generation in photonic crystal fiber;

Femtosecond laser pulses with duration of 35?fs from a Ti:sapphire laser oscillator were coupled into this fiber,and then periodic color rings were observed from the side of the fiber when the supercontinuum light propagated along the fiber.

A random distributed microstructure fiber is demonstrated, and supercontinuum light with a spectrum more than one octave (390～1050 nm) was generated in 60 cm microstructure fiber by the femtosecond pulse laser with a duration of 35 fs and a energy of several nanojoules per pulse.

Study on relationship of supercontinuum spectral width and wavelength in photonic crystal fibers;

Analysis on the coherence properties of supercontinuum spectra generated in a photonic crystal fiber;

Research on the supercontinuum generation in a microstructured fiber pumped at the normal dispersion region;

Research on a highly nonlinear photonic crystal fiber and its supercontinuum spectrum;

Aim To investigate the relationship between the supercontinuum spectrum generation and the parameters of the tapered fiber and ultrashort pulses.